Structure and function of Nurr1 identifies a class of ligand-independent nuclear receptors

Abstract

Members of the nuclear receptor (NR) superfamily of transcription factors modulate gene transcription in response to small lipophilic molecules¹. Transcriptional activity is regulated by ligands binding to the carboxy-terminal ligand-binding domains (LBDs) of cognate NRs. A subgroup of NRs referred to as ‘orphan receptors’ lack identified ligands, however, raising issues about the function of their LBDs². Here we report the crystal structure of the LBD of the orphan receptor Nurr1 at 2.2 Å resolution. The Nurr1 LBD adopts a canonical protein fold resembling that of agonist-bound, transcriptionally active LBDs in NRs³, but the structure has two distinctive features. First, the Nurr1 LBD contains no cavity as a result of the tight packing of side chains from several bulky hydrophobic residues in the region normally occupied by ligands. Second, Nurr1 lacks a ‘classical’ binding site for coactivators. Despite these differences, the Nurr1 LBD can be regulated in mammalian cells. Notably, transcriptional activity is correlated with the Nurr1 LBD adopting a more stable conformation. Our findings highlight a unique structural class of NRs and define a model for ligand-independent NR function.